Tree harvester



0 United States Patent [11.1 3,536,113

[72] Inventor Garfield B. Suthedand [56] References Cited a-Thmm UNITED STATES PATENTS 2,707,007 4/1955 Shuff 144/2 21 Appl. No. 692,149 Filed D. 22, 1967 3,356,113 l 2/l967 del Perugla 144/34 [45] Patented Oct. 27, 1970 Primary Examiner-Gerald A. Dost Attorneys-Carl C. Batz and Andrew J Beck [54] TREE HARVES'I'ER 31 Chum 9 mm m ABSTRACT: A tree harvester including a device to be placed [52] US. by a crane to a position on a tree, which while supported on 144/2, 144/34 the tree may top, delimb and sever the tree trunk into logs or [51] 1 1, (I A013 23/02 bolts, through its own operation, as it'descends the tree; also [50] Field of Search l44/2(2l), methods including a sequence of steps involving delimbing,

cutting into bolts and piling the bolts, in harvesting the trees of the forest.

" Pdte nt r d. Get. 27, 1970 I I v "-3,536,-1 13 I Sheet v INVENTOK GARF/ELD 8 SUTHERLAND ATTORNEY I Patented Oct. 27, 1970 3,536,113

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Sheet 1 of 5 1 "Him",

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A TTORNEY GARF/ELD a. SUTHERLMND TREEI-IARVFSI'ER This invention pertains to tree harvesting equipment and more particularly to such equipment for delimbing and cutting trees into bolts and for transporting the bolts to positions where they may be transported for further processing. Itpertains also to methods for harvesting the trees of the forest.

Until recent times the harvesting of trees for lumber or for use in making pulpwood has required a great amount of hand labor and many of the required hand operations entailed danger to the men performing these operations. In the traditional practice the tree is felled, topped, and the branches removed by use of saws and axes. Then the trunk is cut into lengths or bolts and the bolts drawn to positions wherethey can be loaded on trucks and carried .to rail or. waterways which transport them to the mill.

The industry has long sought effective ways to utilize machinery for performing the burdensome tasks which have been required inlogging operations and to eliminate the need for expensive hand labor and time consuming operations.

Further, when trees are felled there is great likelihood of damaging other trees in the forest, and the industry has sought ways of avoiding this damage.

Machines have been provided which are capable of shearing the trees at their bases to fell the tree. See, for example, US. Pat Nos. 2,876,816; 2,981,301; 3,059,667; 3,198,225; 3,269,437. In some cases the felled tree or sections thereof are brought to a central station where they are passed through processing equipment to be delimbed, debarked or otherwise processed.

Machines have been devised in which a mast is placed alongside a tree and through operation of the mast and associated apparatus, the tree is delimbed, severed at its base and the entire tree turned and lowered into position with. the mast. US. Pat. Nos. 3,252,487; 3,183,951; 3,238,981; 3,182,949; 3,183,952; 3,183,954; and 3,277,936 show machines of this type.

It has further been proposed that the tree be clamped to a mast and the lower bolt removed after which the tree is lowered along the mast and successive bolts removed from the lower end of the tree as it descends within the device. See U. S. Pat. No. 3,140,736.

None of the above-mentioned machines have entirely met the needs of the industry. In most cases the machines have been very large and expensive, and so cumbersome that as a practical matter they could not be maneuvered in the forest. None of the machines heretofore provided have supplanted the traditional logging methods which continue to be used.

It is an object of the present invention provide tree harvesting apparatus which is efi'ective to convert .the standing tree into bolts'of desired length without damaging standing trees and which is practical for operation in the forest.

Another object of the invention is to provide such apparatus which is relatively small and less expensive and which can be maneuvered into position in the forest with ease.

Another object is to provide such apparatus which will delimb the tree as well as to cut it into bolts and which facility for gathering the bolts for transportation from the forest area.

Still another object is to provide a method and apparatus for severing bolts from a tree successfully from the top downwardly of the tree and a still further object is to provide apparatus which is supported by a tree and which can be moved downwardly along the tree to sever successive bolts from the tree.

Yet another object is to provide such apparatus which is power driven and which can be operated convenien ly by a single operator.

Yet another object is to provide methods for performing the various functions of topping, delimbing, cutting the tree trunk into bolts while the tree standing, and for collecting piling the bolts and a still further object is to provide effective methods for harvesting the trees in a through the forest.

To provide the methods and apparatus which are needed, I have turned to a new principle of operation and instead oftirst severing the tree at its base, I provide a device which can be attached to an upper, position of a standing tree and the device then set in operation. As the device and descends rel onthe side of the tree nearthe top with the claws of its fore and hind feet engaging the tree to support itself on the tree. The animal bites off the top of the tree above its fore feet and while holding with its fore feet, stretches its hind feet downwardly .on the tree toa new position where ,it holds with theclaws of itshind feet, and then while holding with its hind feet movesits fore feet down and holds ,with the claws of its fore feet as it bites off another length of the tree, repeating this operation until it reaches the bottom. This rather homely analogydernonstrates an important principle of the invention. According to my invention there is provided a tree harvest- .ing device which is in two sections, with sectionA being simulated by the top or fore part of the animal-above referred to and section B the bottom or rear part of the According to the new principle of operation, both sections A and "B of thedevice attach themselves to the tree to be supported thereon. Tree severing mechanism carried by section A cuts off the top of the tree. Then section Bmoves downwardly of the tree to attach itself at a lower position, after which section v A moves down to follow section B and is attached to the tree at the lowered position where the tree severing mechanism of section A may again operate to cut off the bottom of the first bolt. This operation may be repeated to sever successive bolts.

The device may, attach to the boom of a crane and through operation of the crane,put up into position'near the top of the tree where it can attach itself to the tree.

One embodiment of the invention is illustrated in the accompanying drawings, in which:

FIG. I is a view in elevation showing in full lines the position of the harvesting device when in position to top the tree and in dotted lines the position of the device after a few bolts have been cut;

FIG. 2 is a view from the sky and showing in the shaded part the additional area of the forest which may be served when the crane moves forwardly a distance from one position to the next along a path;

FIG. 3 is a perspective view of the device in accordance with this invention with section Bextended downwardly, the better to show the elements of this section;

FIG. 4 is atop view of the device with parts being broken away as indicated at line 4-4 of FIG. 5-,

FIG. 5 is a side view of the device;

FIG. 6 is a perspective view of the device attached to a tree in position to cut the bolt;

FIG. 7 is an elevational view after the bolt has been cut and the lower section is moving to, a lower position;

FIG. 8 is an elevational view taken after the upper section has moved down to follow the lower section; and

FIG. 9 is a diagrammatic view' of a hydraulic system for operating the fi ce.

DESCRIPTION As illustrated (See FIG. 1), the improved apparatus includes the device D, having sections A and B, and a crane vehicle T having a boom TB which is attached at its end with the device D.

The device D is shown particularly in FIGS. 3-6. It comprises an upper section A a lower section B. In the upper section A is a frame 10, a top clamping mechanism 20, and a sph a ng mech m 5; an in. the low r e on B is a 50, a lower clamping mechanism 70 and a lower shearins mechanism 0- 'Referring to section A, the frame 10 is formed of an upper plate 11 and a lower plate 12 which are joined by sidesl3. A central recess or cavity 14 opening at the front of the frame is provided for receivingthe trunk ofa tree Apin 18ismountedverticallyinframel0 end secured in the plate ll at apointjust rearward ofthe cavig, ty 14. This pin provides the pivot about whichthe top shearing andclamping mechanisms move.

' Referring now to, section B of the r and .6), the lower frame 50 includes spacedpIates-SI and52j" which are joined by the sides 53. Frame50 has a central-cavity 54 opening at thefront; similar to the cavity 14 of upper frame 10, into which the trunk of a tree maybe received. Vertical guide rods 55 and 56 have their lower ends secured to the I s e no. 6). To the The lower clamping mechanism 10 maybe formed in the leftofthisrecessistheleftleg l5ofthefi'arne, andtoitsrightf istheright leg ls'ordie frame. Thearcuate edges ofthe cavity' Mare rigidandcapable ofbreakingotfbranchesofatreeastheframeismovedupordownthetree. i

The lower frameiplate 12 extendsrearwardly is nare rowed to form the frame extensionrl2a, which'may be attachedto the boom of a crane (S ee FlGS. 4 ands) or other such apparatus. Spaced below extension .l2a'is a second frame extension 12b, and at their rear ends extensions lia and 12b are joinedfand provided with a tongue 19 for, enabling attachment of the'frame'to' the boom of a crane.

The top clamping mechanism 20 includes a left clamping the member'2l has-the jaw'25which is arcuate in form.

Clamping member 22 is similarly formed and, forward of the pivot, has the jaw 26 which is arcuate and complementary to clampingmember22Q: 1

Cylinde'r30is blocked atfits central blocking member 31 isprovided with a pin 32 which, inf

, member 21 and a right clamping member 22each of which v 1 receives the pinl8 atitsmidsection and is pivotally movable about the pin. The clamping member 21 is formed of spaced plates 23'which are joined bysides24.-Forwardly of the pin,

while. the piston rod atthe vssa'ndha epistonrodat v withtheendoflegsti.

1 Toaid-in the delimbingfunction k'nives78 and 78 whichare securedtothe loweredgesofthe jaws 76a'nd 77'andwhich have their sharp edges directed same way and may be identical-withthehpper clamping 20, being adapted for movementby the clamp. members 71 and72'about Forward ofthe pivotthe :clamping members 71 and 72have 76 and 77. Extending between the ends of the, reartle gs 73 and 74 arethe cylinders 75 which areblocked in their center and have the piston rodat one end pivotally attached to theIend of leg 73 I e other end is pivotally attached to theiendofleg74. Y h

The lower shearing mechanism 80 includes the shear members'8 l and 82 disposed between the frame plates 51 M52.

These shearrnembers may be comtructedin the'same way and Y may be ide'ntiml to the members 36and 37 of the upper shearing mechanism 35. They are provided at theirforward portion with the blades 83 and 84 and havetheir legportions 85 and 86 extending rearwardly:

A cylinder 90 extends between legs as and 86 andlmsthe piston rod at one end pivotallycon'nected with the end of leg i :the other endpivotally connected I provide the arcuate V downwardly. Similarly, I provide the arcuate knives 79 and j 79securedtotheupperedgesofthejws25and26. y

The device as illustrated includes .100 for tippingthe top ofa tree forwardly Oflhe device and for tipping the severed bolts rearwardly ofthedevice. (See FIGS. 3 and 4). This mechanism includes a pivoted rod [01 mounted in the err ame 1o. Spring-102, carried by the rod 101; has a foroperation of the clamping mechanism, may slidein theslot 33 Y L providedin the frame extension 120. This provides equalintion of the strokes of the two pistons and lic cylinder 30;

Above the clamping n ur 9 b d mechanism 35. This includes a pair of members and 37 each of which receives the pin 18 at its e wardlyeirtendingarm 103 which when-the rod is turned 3 clockwise moves around-into contact with a bolt which may be cavity. l4rand may have been severed byshearing The spring 'l02 and l03'are located above the shearing -35'adist'ance which is more than half Ithe'length ofthe um! bolt so that the arm will strike the'bolt blades-39 and extendforwardly from the pirrl' These blades are arcuate and complementarywith eachothe r sotha't a's me 3 blades are closed'aboutatree, they conform more or the circumference or the tree; The rear'legs 41 andr42 of the shearing members extend rearwardlyiof the pivotpo int. Fluid 1 cylinders 45 which are blocked at their inner ends have piston and rod 46 at one end pivotally connected with the end of leg I '41 and have piston and rod 47 at the other endpivotallycon nected with the end of leg 42.

device (see nos; as, i

frame -and extend upwardly into. the sleeves 57 and-58 respectively, and-serve to keep the'lower with the upper frame 10 as the sections A and Bl of the device move vertically with respect'to each other.

Moitnted on frame were two vertical cylinders relative position ofsectionsA andB areas shownin no. 3." As lnthe case ofthe upper frameliL-the lower ofthedeviceDastheboomismovedinayerticaldirection.

t a scandal; respectively on the left and right-handsides of the cavity .14;

Pistons and rods 62 and 63 of cylinders 61 extend from a their cylinders downwardly through frame l0-and havetheir device.

V at a point above its center of gravity but strike the severed topof a tree belowim center'ofgravity, thus to tip the tree top forwardly of the device to tip rearwardly of the To energizethe tipping there is a link 105 which at its end is pivotally attached to'thetop of leg 41 of the shearing member 36,fand at its forwardend is pivotally conn'ected -with- 'the strap l06 which is'secured to the rod 101.

- When thelegsof 35'are opened as to shearoffabolhthelinlt l05operatestoturnthestrap l06and' consequently the rod 101. clockw'nefto drive spring arm 103 the-tree bolt as it is severed, thus to tip the bolt rearwardly.

The device means of the yoke l07.and pin 1. A cylinder llo is pivotally uattached atone end to the boom and has-its piston rod pivotally attached tonguel9 of the upper frame 10. :Ihis cylinderserves to a correct balance or attitude There-is provided on the topside of the boom a chute 120 (SeeFlGi 7) into-whichthebolts may fall as they are severed tipped rearwardly of the device.jWithin thechute the boltsslide downwardly and rearwardlyleaving the lower end i ofthe chute to form a pile at the rear of the truck '1'.

lower ends secured in thelower frame 50, When these pistons if p and rods are withdrawn into cylinders, relative posi-, I tions ofsectionsA and B are asshown in FIG. 6, and'wheri these pistons are extendedto positions,the

; The crane maylbe hydraulically powcred, and suitably the fluid cylinders mentioned iiiie foregoing description may be poweredfrorn the same-hydraulic controls for the system mayall be contained'inthecabofthe cranesothat the operator sitting in the perform all the function of the secured therein at a point back of the cavity 54,-: avertically Q t disposedpin which providesthepivot for thelower clampmg mechanism and the lower shearing 80. I

' devicefi'omhispositionwithinthecah f A- hydraulic circuit suitable for, the various tune tionsof the device is schematically shown in no.9 where the linesL, and1 estendtoandfromasourceofhydraulicpres- D is for combination with a crane hav- 7 ing 'an extensible boom, or with other transporting apparatus.

in FIG. 1, the truckT mayhave the extensible j boom TB which is preferably of thetelesc oping type. The end of the boom may bepivotally attached to the device Dby I sure S. Lines L, and L, extend to an accumulator 130 which stores fluid energy. The cylinders 45 which operate the top shearing mechanism 35 are connected through the valve V, to line L, and L the cylinders 30 which operate the top clamping mechanism are connected through valve V, to lines L, and L,; the cylinders 60 and 61 for moving sections A and B vertically with respect to each other are connected through valve V, to lines L, and cylinders 75 which operate the lower clamping mechanism are connected through valve V, to lines L, and L cylinders 90 which operate the lower shearing mechanism are connected through valve V to lines L, and L and cylinder 110 which maintains the attitude of the device D is connected through the valve V to Lines L, and L As shown, valves V, and V, which operate the shearing mechanisms and V; which operates the vertical cylinders are two-way valves in whichposition No. l retracts the pistons and position No. 2 extends the pistons. Valves V and V, which operate the clamping mechanisms and V, which operates the leveling cylinder are three-way valves with position No. 1 retracting the pistons, position No. 3 extending the pistons, and position No. 2 representing the float position where the pistons are not impelled in either direction but are permitted to move when mechanical pressure is applied. Controls in the cab of the crane are arranged in a manner most convenient for the operator.

Trees to be harvested are commonly relatively tall-for example, from 45 to 60 feet in height-and have side limbs extending over only about the top two-thirds of their height. Especially in dense forest areas, the limbs are frail and can be cut or broken ofi' easily, and my device-is adapted to perform the delimbing function as well as the topping and the slashing or severing of bolts.

OPERATION One practice of the invention is described as follows:

With the device D attached on the end of a crane, the operator elevates the boom while at the same time extending it until the device is at the level where the tree is to be topped. Then, with valves V, to V set for retraction of the respective cylinders so as to open up all clamping jaws and shear blades, the operator operates V to level the device and pushes the crane head forwardly using the regular crane controls until the tree trunk is received into the frame cavities l4 and 54. Then he moves valves V and V to position No. 3 which extends the pistons and tightens both clamping mechanisms about the tree after which he moves the boom control and the boom level control V to float position. Then he may move valve V, to

position No. 2, setting the top shearing mechanism into action,

and at the same time, move valve V to position No. 2 to throw the lower clamping mechanism into float position, and with the valve V, in float position, move valve V into position No. 2.

When the top shearing mechanism has operated to sever the top of the tree, the tipping mechanism has operated to tip the tree top forwardly as previously explained and it falls forwardly to the ground. At the same time, with valve V, in float position, valve V in position No. 2, the whole lower section B goes crashing downward with the limbs being broken through contact with the edge of the lower frame cavity 54 and then cut off somewhat closer by contact of the knives 78 and 78' on the lower edge of the jaws of the lower clamping mechanism. As the section B descends the jaws 76 and 77 are permitted to open somewhat to accomodate the slightly increasing diameter of the tree trunk.

The limbs and foliage removed from the tree fall to the earth at the base of the tree where they provide protection to young tree growth and fertilization of the soil.

When section B has reached its limit position, valve V is changed to position 3 to close clamp jaws 76 and 77, then the valve V, may be changed to position No. l and valve V changed to position No. 1 to open the top clamp and bring the section A down along the tree to a position adjacent Section B, after which valve V, may again be changed to position No. 3 to again tighten the top clamping mechanism, and the valve V, again moved to position No. 2 to again activate the top shearing mechanism to sever the first bolt. This time the tipping mechanism operates to tip the bolt rearwardly, as previously explained to cause the bolt to tip into the chute on top of the crane boom, and slide down the chute to the bolt pile at the rear of the truck.

The above operation may be repeated to sever and deliver successive bolts as the device moves downwardly along the tree.

The length of the bolts in the above operation depends on the length of the strokes of cylinders 60 and 61 which can be made any length desired. It is also possible to cut bolts of twice, three times or other multiples of the basic lengths by omitting the top shearing operation every other time or by omitting this shearing operation for two or more consecutive times before severing the bolt.

If it is desired that all bolts, including the lowermost bolt, next to the stump, shall be of the same length, then the original placement of the device at the top of the tree should be made so that there are multiples of the desired bolt length between the top shearing mechanism and the stump.

When making the last bolt, the downward movement of section B may be limited through contact of frame 50 with the ground or the top roots of the tree and when the operator moves valve V to position No. 2, this closes the lower shear mechanism to sever the last bolt. At this point the operator may either open the lower shear mechanism and operate the boom to raise device D permitting the last bolt to fall to the ground where it is cut, or he may raise the boom to carry the bolt upwardly to a height where, through operation of the attitude cylinders dump, the bolt'backs into the chute 120. It is also possible for the operator to raise the boom on other occasions when there may not be sufficient slant of the chute to cause the bolts to slide down by gravity.

My device is versatile in its operation and may move upwardly on a tree as wellas downwardly through its own operation. For example, with the shearing mechanisms in open position, the top clamping mechanism either open or in float position, and lower clamp mechanism closed on the tree, the operator may actuate the vertical cylinders 60 and 61 to raise section A, and then with the top clamping mechanism closed and the lower clamping mechanism open or in float position, again actuate cylinders 60 and 61 to retract their pistons and raise section B up to a level adjacent section A.

The delimbing operation may be accomplished also as the device is raised along the tree. In this case, the edges of the cavity 14 of the upper frame 10 can break the limbs and the knives on the top shearing mechanism more closely trim the branches.

It may be noted that after the device is placed on a tree and the clamping mechanisms energized, the boom may be placed on float operation so that no support is given to the device by the boom, and as the device is moved downwardly or upwardly on the tree, the boom may follow along but exert no actuating force on the device. The boom may be used, however, to raise the device as the final bolts are severed, and to move to the next tree to be harvested. The leveling cylinder may be activated while the device is not supported on a standing tree, to maintain the device in a proper position with respect to the horizontal.

Another way to proceed in harvesting a tree is first to place the device D at the bottom of the tree and operate it to move upwardly of the tree breaking and cutting the branches on the way up, then when at the top where the top is to be severed, setting into operation the sequence of steps as heretofore described so that there is severing first of the top and then of successive bolts as the device descends. By this operation, the delimbing function is repeated to make bolts that have twice been subjected to the delimbing function.

My device may be used to harvest a path'through the forest, and in this connection particular reference is made to FIG. 2

i trunk at said lowerrposition.

of the drawings. The truck-may be placed as shown in dotted lines at T, and when in this position the boom swung from side to side and'rnay be extendedto-placethedeviceD'on trees Q within the arc'X. When the tre'espin this areahave beenhar A vesre d e truck h ype advanced shownin. solid lines at 'l, and irithis positiontheboommaybe ex tended toplace the deviceD 'on trees within thefarc Y cover f vesting a path of trees u 1 While inthe foregoing lclaim: 7 s

l. A tree harvester comprising firstland 7 g F booinisatelescopicboom;

spaced mechanisms for severing the trunlg of atree', means'for I fully supporting said m'echanismsHom-a Itree, first mechanismbeing operable to sever t. h ev trunk of a t'reewhenin one position on a tree and means for moving said harvester to i a lower position on said tree whilestipported whereby said second mechanism comes to be operable to sever said 2. A tree harvester as set forth in ing means is operableto move said mechanisms successively to lower positions on said tree to enable successive'operation of said severing means to sever said trunk injto'successive bolts. H i

3. A tree harvester as set delimbingthe tree.

for supporting-said frame on a' tree, rn'eansformovirig clairnlwhereinsaid mow V forth in clairnl including separate delimbing blade means independentyof mechanisms for s 8 J ll. 'Adevice as set forth=in includes a pin which is mouiitedvertically in the upper frame sectionand provides, me pivot, about which esehioruie shearing and the'top clamping mechanism operate. p 7

12. Adevidas set forthin claim sjncluding knives carried in lower section for' cutting limbs from the tree as said lower section is moved-to said lower position; s r

13. A tree harvester'as setforth in claim 12 including means for placing said frame at said one position'on 1 14. A tree as setforthl inclaim 13 in which said pivotally attached i 15. A treeharvester 'as set forth placing means includes a' crane havingaboom which is.

16. A tree harvester as set the horizontal at different vertical positions of the frame. 7

'17, device as set forth. in claim 14 including hydraulic means fol-actuating said boom andcontrolmeans for conditioning hydraulic rneans to permit movement of said boom but without the application of, moving force on said frame as said frame is moved'downwardly on said 18. A tree harvesteras set forthin'claim-l4 including a chute carried on top of said boom into'which bolts cut from said tree rnay fall and tion. V x a 1 l9, A device as setforth in claimS including means for pass'downwardly toa point of collecmaintaining said upper clamping mechanismr'aligned with said 3 frame so as to preventturningfofframe downwardly from one position onpsaid tree-to-a lower;

position on said tree while itis still supported by said tree,"and i 'meansfor actuating said mechairismlat' each position'of said 7 frame to provide a bolt which has been severed at each end, 40

wherein said frame includes an upperv section and a lower .tion, wherein said supporting means includes; clamping mechanism in said upper sectionand clamping mechanism insaid lower section, and wherein said movingmeans is operable u .to move oneof said sections vertically with re'spe'c'tfto the other section.

5. in a tree harvester devices framehaving an upper section o u and a lower section, upper clamping mechanism mounted on said "upper. 'section,lower clamping mechanism mounted on;

said lower section, eachof said mechanisms being effective for.

releasably attaching its frame 'to the trunk'of; a tree to support i said device on the tree, and means'for moving said lower tion to'a lowerposition along said tree when said upper clamp, f

ing mechanism is. engaged and said lower, clamping" mechanism isreleased and for movin'gKsaid uppersection toward said lower section when said. upper clamping mechanism is released and said lower clamping mechanism is vengaged. 3,

forth in claim 5 'whereinthe lower section of said frame has a cavityfor receiving the trunk of .th'ejtree 6. A device as set theframe as said clamping mechanism is actuated. V f v 20. :A device as set in claim 19 in which said means for rnaintainingalignrlnentincludes a slotted frame extension and 4. A tree harvester comprising frame, fluid cylinderattached to said clamping mechanism and havmounted on said frame for severing thejtrunk of a tree, ,7

1 frame extension whereby said pin may move wrthin said slot as ing an'upwardly extending pin'extending into the slot of said f tion and a lower section, upper clamping mechanism mounted i on said upper section, lower clamping mechanism mountedon said'lower section, each of said mechanism being effective for releasably attaching its frame to the trunk of a tree, and means 'for moving said upper section to an upper position along saidtree when said upper clamping mechanism is released and said lower clamping mechanism is engaged and for moving said lower section'toward said upper section when said upper clamping mechanism is engaged and said .lower clamping is released. i I 22. Adevice asset forth in claim tion has a cavity into which the trunk'of'saidtree may be zr vh ieih said upper secreceived and which is effective to break branches of said tree as said upper section is moved to said upperposition.

23, A device as set forth in claim 22 including a knife carried by said upper section for cutting the limbs of said tree as said upper section is moved to said upper position.

241A method of harvestingtrees utilizing a tree severing device supported on a telescopic boom adapted to be placed in afloat condition c'orrrprising placing the boom supported tree severing device at a position adjacent the top of a tree,

' placing the boomjinthefloat and supporting the and is adapted when said section is lowered to break branches u i of the tree.

7. A device as set forth means for actuating said moving means.

8. A device as set forth in claim 5 including hydraulic powerimeans for actuating said clamping mechanisms and said mov ingme'ans. up 9. A device as set forth in when said upper section is in position onsaidtree and also when said upper section is at said lower position on said tree. I

10. A tree harvester as set forth in claim 9 including shear-i in claim 5 including hydraulic ower claim 5 including j mechanism for severing the trunk of the tree mountedon the device downwardly along-the treektoa new position and severing device solely on the tree, severingthe tree while said .deviceis in said position, while said device is solely supported on said tree, moving the device downwardly along the tree to a ,',new position and while said device isstill solely supported by position to sever the I said tree, actuating said device at its new 7 tree a second time.

25. A of harvestingtrees comprising placing a tree severing device at a position on a tree so that the device is supported thereon, severing the tree while said device is in said position, while said device is supportedon said tree, moving while said device is still supported by said tree, actuating said ing mechanism mounted on said lower section of the frarnefor shearing the bottom of the last bolt from said tree.

' device at its new positionto'sever the tree a second time,

"clamping said device to said tree at said first mentioned position to cause the device to supported thereon before severinclairn 14 wherein said 7 forth '14 including means i for maintaining said frame in predetermined relationship with ing the tree the first time, clamping the device to said tree at a lower position on said tree before moving said device downwardly.

26. A method for harvesting trees comprising mounting a tree severing device on the end of the boom of a crane, elevating the boom to bring the said device into position at the upper portion of a tree, clamping said device to the tree, placing the boom in float condition in which it gives no further support to said device, actuating said device to sever the tree at the position in which it is clamped, moving said device downwardly along said tree while clamped thereto to a new position along said tree, and again actuating said device to sever said tree at said new position to provide a tree bolt severed at each end.

27. A method as set forth in claim 26 in which said severing and moving steps are repeated to provide a series of tree bolts severed at each of their ends.

28. A method as set forth in claim 27 in which said boom is swung laterally and moved to place said device in position to harvest trees within an are determined by the length of the boom, and in which after harvesting trees within said are said crane is advanced to a new position where the boom may be moved to place the device in position on trees within a new are determined by boom length in said new position.

29. A method of harvesting trees comprising placing a tree severing and delimbing device at a position on a tree so that the device is solely supported thereby, severing the tree while said device is in said position, while said device is supported by said tree, moving the device downwardly along the tree to a new position to delimb the same and while said device is still supported by said tree, actuating said device at its new position to sever the tree a second time.

30. A tree harvester comprising mechanism for severing a standing tree into a plurality of sections, a longitudinally extensible telescopic boom for positioning said mechanism, said boom adapted to be pivotally mounted on a vehicle for pivotal movement about a horizontal axis and to be angularly disposed relative to a tree, tree section delivery means connected to and substantially coextensive with said boom adapted to receive sections severed from the tree and convey the same to a location adjacent the vehicle, said mechanism including tree section fall directing means for directing the fall 

